LM4950TS/NOPB National Semiconductor, LM4950TS/NOPB Datasheet - Page 18

LM4950TS/NOPB

Manufacturer Part Number

LM4950TS/NOPB

Description

IC AMP AUDIO PWR 7.5W AB TO263-9

Manufacturer

National Semiconductor

Series

Boomer®r

Type

Class ABr

Datasheet

1.LM4950TANOPB.pdf (25 pages)

Specifications of LM4950TS/NOPB

Output Type

1-Channel (Mono) or 2-Channel (Stereo)

Max Output Power X Channels @ Load

7.5W x 1 @ 8 Ohm; 3.1W x 2 @ 4 Ohm

Voltage - Supply

9.6 V ~ 16 V

Features

Depop, Short-Circuit and Thermal Protection, Shutdown

Mounting Type

Surface Mount

Package / Case

TO-263-9 (9 leads + tab)

Amplifier Class

No. Of Channels

Output Power

3.1W

Supply Voltage Range

9.6V To 16V

Load Impedance

8ohm

Operating Temperature Range

-40Â°C To +85Â°C

Amplifier Case Style

TO-263

Rohs Compliant

Yes

For Use With

LM4950TSBD - BOARD EVALUATION LM4950TS

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

*LM4950TS
*LM4950TS/NOPB
LM4950TS

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Application Information

AUDIO POWER AMPLIFIER DESIGN

Audio Amplifier Design: Driving 4W into an 8Ω BTL

The design begins by specifying the minimum supply voltage

necessary to obtain the specified output power. One way to

find the minimum supply voltage is to use the Output Power

vs Power Supply Voltage curve in the Typical Performance

Characteristics section. Another way, using Equation (8), is

to calculate the peak output voltage necessary to achieve

the desired output power for a given load impedance. To

account for the amplifier’s dropout voltage, two additional

voltages, based on the Clipping Dropout Voltage vs Power

Supply Voltage in the Typical Performance Characteris-

tics curves, must be added to the result obtained by Equa-

tion (8). The result is Equation (9).

The Output Power vs. Power Supply Voltage graph for an 8Ω

load indicates a minimum supply voltage of 10.2V. The com-

monly used 12V supply voltage easily meets this. The addi-

tional voltage creates the benefit of headroom, allowing the

LM4950 to produce peak output power in excess of 4W

without clipping or other audible distortion. The choice of

The following are the desired operational parameters:

Power Output

Load Impedance

Input Level

Input Impedance

Bandwidth

= V

OUTPEAK

+ V

ODTOP

FIGURE 4. Piezo-electric Transducer Capacitance ≤ 200nF

50Hz–20kHz

+ V

(Continued)

ODBOT

0.3V

RMS

0.25dB

(max)

20kΩ

RMS

8Ω

(8)

(9)

supply voltage must also not create a situation that violates

of maximum power dissipation as explained above in the

Power Dissipation section. After satisfying the LM4950’s

power dissipation requirements, the minimum differential

gain needed to achieve 4W dissipation in an 8Ω BTL load is

found using Equation (10).

Thus, a minimum gain of 18.9 allows the LM4950’s to reach

full output swing and maintain low noise and THD+N perfor-

mance. For this example, let A

overall BTL gain is set using the input (RIN

(R) resistors of the first amplifier in the series BTL configu-

ration. Additionaly, A

amplifier’s R

at 20kΩ, the feedback resistor is found using Equation (11).

The value of R

The nominal output power is 4W.

The last step in this design example is setting the amplifier’s

-3dB frequency bandwidth. To achieve the desired

pass band magnitude variation limit, the low frequency re-

sponse must extend to at least one-fifth the lower bandwidth

limit and the high frequency response must extend to at least

five times the upper bandwidth limit. The gain variation for

both response limits is 0.17dB, well within the

desired limit. The results are an

and R

is 190kΩ (choose 191kΩ, the closest value).

V-BTL

. With the desired input impedance set

= 50Hz / 5 = 10Hz

/ R

is twice the gain set by the first

= A

20047079

V-BTL

/ 2

= 19. The amplifier’s

) and feedback

0.25dB-

0.25dB

(10)

(12)

(11)

LM4950TS/NOPB National Semiconductor, LM4950TS/NOPB Datasheet - Page 18

LM4950TS/NOPB

Specifications of LM4950TS/NOPB

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